A capacitive touch keyboard includes a soft shielding layer, a soft intermediate layer, and a one dimensional sensor layer where the soft intermediate layer is interposed between the other two to form a capacitor structure. The soft shielding layer includes a ground plane, a dielectric material covering on the ground plane, and plural key areas at its outer surface. The one dimensional sensor layer includes plural sensing cells which correspond to the key areas, and respective cells are electrically connected to a capacitance sensing circuit. Therefore, features of more compact size, simplified structure design, and tactile feel are provided in a capacitive keyboard.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A capacitive touch keyboard, comprising: a soft shielding layer comprising a first ground plane and a dielectric material covering on the first ground plane, wherein the soft shielding layer also comprises plural key areas at an outer surface; a one dimensional sensor layer comprising plural first sensing cells corresponding to the plural key areas; a soft intermediate layer interposed between the first ground plane of the soft shielding layer and the one dimensional sensor layer so as to form a capacitor structure; and a capacitance sensing circuit electrically connected to the plural first sensing cells to probe a capacitance change.
2. The capacitive touch keyboard of claim 1 , wherein the dielectric material is referred to PMMA, PET film, or rubber.
3. The capacitive touch keyboard of claim 1 , wherein the dielectric material is provided with plural imprinted externally visible key labels corresponding to the key areas.
4. The capacitive touch keyboard of claim 1 , wherein the soft intermediate layer is made of plural spacers.
5. The capacitive touch keyboard of claim 1 , wherein the soft shielding layer is provided with plural openings corresponding to the key areas with each opening exposing the soft intermediate layer.
6. The capacitive touch keyboard of claim 1 , wherein each of the plural first sensing cells is surrounded by six other cells so as to form a honeycomb pattern altogether.
7. The capacitive touch keyboard of claim 1 , wherein the first ground plane of the shielding layer is made of copper, silver paste, indium tin oxide, ATO, IZO, ZnO or the combination thereof.
8. The capacitive touch keyboard of claim 1 , wherein the one dimensional sensor layer is connected to the capacitance sensing circuit through an FPC.
9. The capacitive touch keyboard of claim 1 , wherein the soft shielding layer further comprises a non-key area formed as a between-keys space between the adjacent key areas, and the one dimensional sensor layer further comprises a second sensing cell corresponding to the non-key area.
10. The capacitive touch keyboard of claim 9 , wherein the one dimensional sensor layer further comprises a second ground plane disposed at a side opposite to all sensing cells and corresponding to the between-keys space.
11. The capacitive touch keyboard of claim 10 , wherein the capacitance sensing circuit provides a stimulus voltage to the second ground plane.
12. A capacitive touch keyboard, comprising: a soft shielding layer comprising a ground plane and a dielectric material covering on the ground plane, wherein the soft shielding layer also comprises plural key areas at an outer surface; a one dimensional sensor layer comprising plural sensing cells corresponding to the plural key areas, wherein each of the plural sensing cells is shaped as a hexagon so as to form a honeycomb pattern altogether, wherein a unit of the honeycomb pattern includes a center hexagon surrounded by six adjacent hexagons; a soft intermediate layer interposed between the ground plane of the soft shielding layer and the one dimensional sensor layer so as to form a capacitor structure; and a capacitance sensing circuit electrically connected to the plural sensing cells to probe a capacitance change.
13. The capacitive touch keyboard of claim 12 , wherein the dielectric material is provided with plural imprinted externally visible key labels corresponding to the key areas.
14. The capacitive touch keyboard of claim 12 , wherein the soft intermediate layer is made of plural spacers.
15. The capacitive touch keyboard of claim 12 , wherein the soft shielding layer is provided with plural openings corresponding to the key areas with each opening exposing the soft intermediate layer.
16. The capacitive touch keyboard of claim 12 , wherein the ground plane of soft shielding layer is made of copper, silver paste, indium tin oxide, ATO, IZO, ZnO or the combination thereof.
17. A capacitive touch keyboard, comprising: a soft shielding layer comprising a ground plane and a dielectric material covering on the ground plane, wherein the soft shielding layer also comprises plural key areas at an outer surface; a one dimensional sensor layer comprising plural sensing cells corresponding to the plural key areas, wherein each of the plural sensing cells is shaped as hexagon so as to form a honeycomb pattern altogether, wherein a unit of the honeycomb pattern includes a center hexagon surrounded by six adjacent hexagons; a soft intermediate layer interposed between the ground plane of the soft shielding layer and the one dimensional sensor layer so as to form a capacitor structure; and a capacitance sensing circuit electrically connected to the plural sensing cells to probe a capacitance change; wherein the soft shielding layer is provided with plural openings corresponding to the key areas with each opening exposing the soft intermediate layer.
18. The capacitive touch keyboard of claim 17 , wherein the soft intermediate layer is made of plural spacers.
19. The capacitive touch keyboard of claim 17 , wherein the ground plane of soft shielding layer is made of copper, silver paste, indium tin oxide, ATO, IZO, ZnO or the combination thereof.
20. The capacitive touch keyboard of claim 17 , wherein the dielectric material is provided with plural imprinted externally visible key labels corresponding to the key areas.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
December 21, 2012
September 29, 2015
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